Apparatus for reading information, supporting means for use in the apparatus and method for rotating a date carrier

ABSTRACT

Disclosed is an apparatus for reading information recorded on the track of a data carrier ( 1 ). The apparatus comprises rotating means ( 2 ) for supporting and rotating the data carrier ( 1 ) around an axis of rotation ( 3 ). The rotating means ( 2 ) comprises a turntable ( 21 ) and a motor ( 23 ) for rotating the turntable ( 21 ). The apparatus according to the invention is able to suppress a wobble introduced by the data carrier ( 1 ) when rotated. This is done by a flexible part ( 24 ) in the rotating means ( 2 ). In an embodiment the supporting surface of the turntable ( 21 ) comprises the flexible part ( 24 ). This allows the data carrier ( 1 ) to tilt in radial and tangential direction. The centrifugal force which are present when rotation the data carrier ( 1 ), are able to level the data carrier ( 1 ), thus reducing the wobble.

This application is a 371 of PCT/1B03/00354 Jan. 31, 2003.

FIELD OF INVENTION

An apparatus for reading information recorded on a track of a datacarrier, the apparatus comprising:

-   -   a transducer for reading the information recorded on the track        on the data carrier, and    -   rotating means for supporting and rotating the data carrier        around an axis of rotation, comprising:        -   a turntable for supporting the data carrier, and        -   a motor for rotating the turntable.

BACKGROUND OF THE INVENTION

An embodiment of an apparatus according to the opening paragraph isknown from WO 00/10166. The known apparatus for reading informationrecorded on a track of a data carrier comprises a transducer forgenerating a detection signal in response to the recorded signal on thedata carrier. The apparatus has correction means for correcting radialtilt. Radial tilt is an obliquity of the data carrier in a planeoriented transversely to the part of the track that is read by thetransducer and transversely to the data carrier.

The apparatus further has error signal generating means for generatingan error signal for the correction means. The error signal generatingmeans calculate the error signal from a correlation between a firstauxiliary signal and a second auxiliary signal and from the correlationbetween the first auxiliary signal and a third auxiliary signal, whichauxiliary signals are derived from the detection signal. The second andthe third auxiliary signal are estimates of the recorded signal. Thefirst and the third auxiliary signal respectively have a first delay anda second delay with respect to the second auxiliary signal, themagnitude of the delays corresponding to the duration of one revolutionand two revolutions of the data carrier.

The correction means as described in WO 00/10166 comprises actuators forchanging the radial tilt orientation of the transducer with respect tothe data carrier. Also a transparent plate can be used which by tiltingthis plate in radial direction can change the radial tilt error.

An other embodiment of an apparatus according to the opening lines isknown from WO 00/10165. The known apparatus for reading informationrecorded on a track of a data carrier comprises a transducer forgenerating a detection signal in response to the recorded signal on thedata carrier. The apparatus has correction means for correctingtangential tilt. Tangential tilt is obliquity of the data carrier in aplane oriented parallel to the part of the track that is read by thetransducer and transversely to the data carrier.

The apparatus further has error signal generating means for generatingan error signal for the correction means. The error signal generatingmeans are adapted to derive the error signal for the error signal from atemporal asymmetry of the response of the read signal to recordedsignal.

The correction means as described in WO 00/10165 comprises actuators forchanging the radial tilt orientation of the transducer with respect tothe data carrier. Also a transparent plate can be used which by tiltingthis plate in radial direction can change the radial tilt error.

When the data carrier has a tilt error, a wobble of the data carrier ina direction transverse to the data carrier is introduced when the datacarrier is rotated. This results in a focused reading spot with dynamiccoma aberrations in both the radial and tangential directions. Discreading performance of the transducer given the continuously changingradial and tangential tilt levels is thus very poor, even with thecorrection means of the known apparatus.

BRIEF SUMMARY OF THE INVENTION

It is a first object of the invention to provide an apparatus of thekind described in the opening paragraph which correction means are ableto further reduce the wobble of the data carrier when the data carrieris rotated.

It is a second object of the invention to provide a method for rotatinga data carrier where the wobble of the data carrier when the datacarrier is rotated is reduced.

The first object is realized in that the rotating means comprise aflexible part for allowing the data carrier to tilt around two mutualperpendicular axes which are perpendicular to the axis of rotation.Tilting around the two mutual perpendicular axes is commonly known asradial tilting and tangential tilting. The two mutual perpendicular axestogether with the axis of rotation form a three dimensional coordinatesystem. As the record carrier is allowed to tilt around two mutualperpendicular axes which are perpendicular to the axis of rotation therecord carrier can tilt in any direction which is a superposition ofthese two axis. By this measure the wobble is suppressed by thecentrifugal forces working on the data carrier when it is rotated. Thephysical explanation is as follows.

The rotating data carrier with a tilt can be idealized as point massesrotating about the centre of the turntable at a certain distance. As aresult of the rotation of the data carrier a centrifugal force isgenerated which has components parallel and perpendicular to the surfaceof the data carrier. The horizontal components cancel each other outwhile perpendicular components act like a correcting moment trying tobring the data carrier horizontal again, thus trying to neutralize thetilt the data carrier in radial and tangential direction. However, ifthe rotating means are rigid, considerable centrifugal force is neededto distort the data carrier to get some reduction in tilt. By providingthe rotating means with a flexible part which allows the data carrier totilt around two mutual perpendicular axes which are perpendicular to theaxis of rotation, the centrifugal force is able to level the datacarrier. Thus the surface of the turntable which contacts the datacarrier is able to take the profile of the spinning data carrier when itis level. The lower the stiffness of the rotating means, i.e. theturntable, the lower the speed required to bring the data carrier backto horizontal.

The invention has the further advantage in that it is able to reduce thewobble without electronic correction means.

In an embodiment of the invention the flexible part of the rotatingmeans comprises a flexible supporting surface of the turntable for thedata carrier. In this embodiment the centrifugal force acting on thedata carrier is directly transferred to the flexible supporting surface.The centrifugal force thus only has to level the data carrier, no extramass needs to be moved.

It is advantageous if the flexible supporting surface comprises a gellike substance containing space between the turntable and the datacarrier, which gel like substance containing space provides theflexibility of the flexible supporting surface. This embodiment isrelatively easy to implement. For instance, a ring of some syntheticmaterial which contains the gel like substance can be placed between theturntable and the data carrier.

In an other embodiment of the invention the flexible supporting surfaceis realized in that the flexible supporting surface comprises:

-   -   an outer ring for supporting the data carrier;    -   an inner ring which is connected to the motor which is able to        rotate the inner ring;    -   a spring which connects the outer ring with the inner ring and        is flexible in a direction parallel to the axis of rotation, and        which is inflexible in a rotational direction around the axis of        rotation.

With this embodiment the data carrier is also free to tilt around twomutual perpendicular axes which are perpendicular to the axis ofrotation, thereby able to reduce the wobble with the help of thecentrifugal forces. Of course an other embodiment can be realized by aninner ring that supports the data carrier and an outer ring which isrotated by the motor, and a spring which connects the outer ring withthe inner ring.

The second object is realized in that the data carrier is able to tiltaround two mutual perpendicular axes which are perpendicular to the axisof rotation, by using supporting means which comprise a flexible part.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other aspects of the invention will be described in moredetail with reference to the drawing. In the drawings:

FIG. 1 diagrammatically shows a known apparatus for reading informationrecorded on a track of a data carrier,

FIG. 2 schematically shows a data carrier together with the axis ofrotation and the two mutual perpendicular axes,

FIG. 3 diagrammatically shows an embodiment of the apparatus inaccordance with the invention,

FIG. 4 diagrammatically shows an other embodiment of the apparatus inaccordance with the invention,

FIG. 5 a shows an example of an upper view of the flexible supportingsurface with a spring between an outer ring and an inner ring,

FIG. 5 b shows an example of side view of the flexible supportingsurface of FIG. 5 a,

FIG. 6 shows a side view of an other embodiment of the flexiblesupporting surface with a spring between an outer ring and an innerring;

FIG. 7 a shows a sketch of an other example of the flexible supportingsurface with a gel like substance containing space,

FIG. 7 b shows a sketch of the gel like substance containing space ofFIG. 7 a positioned between the turntable and the data carrier,

FIG. 8 a shows an example of a measurement of the radial and tangentialtilt of a data carrier in an apparatus without the flexible part,

FIG. 8 b shows an example of a measurement of the radial and tangentialtilt of a data carrier in an apparatus with the flexible part,

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 an embodiment of the known apparatus for reading informationrecorded on a track of data carrier 1 comprises rotating means 2. Therotating means 2 are able to rotate the data carrier 1 around the axisof rotation 3. The data carrier 1 can be an optical disc, for instance aCompact Disc (CD) or a Digital Versatile Disc (DVD). Also present is atransducer 4 which is able to read a readable pattern on the track ofthe data carrier 1. The rotating means 2 comprises a motor 23 and aturntable 21, where the motor 23 and the turntable are connected via ashaft 22.

The commercial optical discs (CD and DVD) available in the market todayshow considerable variations of distortions in radial and tangentialdirections. Tilt of the disc causes wobble when it is spinning, thisresults in a focused reading spot with dynamic come aberrations in boththe tangential and radial directions. Disc reading performance of thetransducer given the continuously changing radial/tangential tilt levelsis thus very poor, even with the active tilt corrections of the knownapparatus. This poses a challenge to design a system that can handle thewide and varied disc characteristics with respect to tilt and wobble.

If the rotating means 2 is provided with a flexible part 24 that allowsthe data carrier 1 to tilt in radial and tangential direction then thewobble is suppressed. The driving forces behind this suppression are thecentrifugal forces that arise when rotating the data carrier 1. Theseforces supply a moment on the data carrier 1 trying to bring the datacarrier 1 in horizontal position again. If the turntable 21 is rigid,then considerable centrifugal force is needed to distort the datacarrier 1 to get some reduction in tilt. The flexible part 24 providesthe needed flexibility to allow the data carrier 1 to level under theinfluence of the centrifugal force.

In FIG. 2 an example of two mutual perpendicular axes a1 and a2 whichare also perpendicular to the axis of rotation 3 are shown. The sketchis in perceptive. The two mutual perpendicular axes a1 and a2 aresituated in the surface of the data carrier 1. The arrow r1 indicatesthe rotation of the data carrier 1 around axis a1 and the arrow r2indicates the rotation of the data carrier 1 around axis a2. The mutualperpendicular axes a1 and a2 are examples, there are an indefinitenumber of possible mutual perpendicular axes which would suffice.Tangential tilt can be defined as the tilt around an axis a1, if thataxis would also be transversely with respect to the part of the trackthat is being read by the transducer 4. Radial tilt can be defined asthe tilt around an axis a2, if that axis would also be parallel withrespect to the part of the track that is being read by the transducer 4.

In an embodiment as shown in FIG. 3 the flexible part 24 is a flexibleshaft 22. Here the centrifugal forces need to tilt only the data carrier1 and the turntable 21.

An embodiment where the flexible part 24 is a flexible supportingsurface of the turntable 21 can be seen in FIG. 4. The centrifugal forceneed only to tilt the data carrier 1. Thus also at relatively lowrotation speeds the centrifugal force can suppress the wobble.

In FIGS. 5 a and 5 b a further detailed embodiment of the flexiblesupporting surface is shown. The turntable 21 in this embodimentcomprises an outer ring 211, an inner ring 212 and the flexible part 24in the form of a spring. The inner ring 212 supports the data carrier 1.The outer ring 211 is rotated by the motor 23. The data carrier 1 hasthe freedom of movement to tilt in radial and tangential direction. Inthe rotational direction the spring is stiff so that it translates therotating force of the motor 23 from the outer ring 211 to the inner ring212.

An other implementation of the flexible supporting surface with an outerring 211, an inner ring 212 and a spring is shown in FIG. 6. Here theinner ring 212 can be rotated by the motor 23, and the outer ring 211 isable to support the data carrier 1.

An other implementation of the flexible supporting surface can be seenin FIGS. 7 a and 7 b. Here the flexible supporting surface 24 comprisesa gel like substance containing space between the turntable 21 and thedata carrier 1. The gel like substance 241 gives the flexibility to theflexible part 24. When the optical data carrier 1 is rotated, theleveling forces of the centrifugal force squeezes the gel like substance241 naturally to take the shape of the data carrier surface whilemaintaining the turntable surface at its original place. Thus the wobbleis reduced.

In order to measure the reduction of the wobble when using the flexiblesupporting surface in a CD player, a special vertical deviation disc(VDD) is played on the CD player. In FIG. 8 a a co-ordinate system isshown where on the horizontal axis, indicated by R, the radial tilt isshown and on the vertical axis, indicated by T, the tangential tilt isshown. The units are in milli-radials, indicated by the lines on theaxes. The result shown in FIG. 8 a is obtained by playing the VDD discon a known CD player without the rotating means 2 of the invention. Themeasured tangential and radial tilt is indicated by the circle W. Boththe tangential tilt and the radial tilt are about 8 mrad in magnitude.In FIG. 8 b the results are shown when playing the VDD disc on a CDplayer according to the invention. Now both the tangential tilt and theradial tilt are reduced to about 1 mrad, a substantial improvement.

1. An apparatus for reading information recorded on a track of a datacarrier, the apparatus comprising: a transducer for reading theinformation recorded on the track on the data carrier, and rotatingmeans for supporting and rotating the data carrier around an axis ofrotation, comprising: a turntable comprising a flexible supportingsurface for supporting the data carrier, and a motor for rotating theturntable, wherein the flexible supporting surface comprises: an outerring which is connected to the motor which is able to rotate the outerring; an inner ring for supporting the data carrier; and a spring whichconnects the outer ring with the inner ring and is flexible in adirection parallel to the axis of rotation, and which is inflexible in arotational direction around the axis of rotation.
 2. An apparatus forreading information recorded on a track of a data carrier, the apparatuscomprising: a transducer for reading the information recorded on thetrack on the data carrier, and rotating means for supporting androtating the data carrier around an axis of rotation, comprising: aturntable comprising a flexible supporting surface for supporting thedata carrier, and a motor for rotating the turntable, wherein theflexible supporting surface comprises: an outer ring for supporting thedata carrier; an inner ring which is connected to the motor which isable to rotate the inner ring; a spring which connects the outer ringwith the inner ring and is flexible in a direction parallel to the axisof rotation, and which is inflexible in a rotational direction aroundthe axis of rotation.
 3. Method for rotating a data carrier providedwith a track on which information is recorded, comprising the steps of:supporting the data carrier with supporting means; rotating the datacarrier around an axis of rotation by rotating the supporting means,wherein the supporting means comprises: an outer ring for supporting thedata carrier; an inner ring which is connected to a motor which is ableto rotate the inner ring; a spring which connects the outer ring withthe inner ring and is flexible in a direction parallel to the axis ofrotation, and which is inflexible in a rotational direction around theaxis of rotation.
 4. An apparatus for reading information recorded on atrack of a data carrier, the apparatus comprising: a transducer forreading the information recorded on the track on the data carrier; aturntable comprising a flexible supporting surface for supporting thedata carrier and rotating the data carrier around an axis of rotation;and a motor for rotating the turntable, wherein the flexible supportingsurface comprises: a first ring connected to the motor which is able torotate the first ring; a second ring for supporting the data carrier;and a flexible part connected between the first ring and the secondring, wherein the flexible part is flexible in a direction parallel tothe axis of rotation, and is inflexible in a rotational direction aroundthe axis of rotation.
 5. The apparatus of claim 4, wherein the firstring is an inner ring and the second ring is an outer ring.
 6. Theapparatus of claim 4, wherein the first ring is an outer ring and thesecond ring is an inner ring.